The configuration is very simple with only two lines on R1. In the first line, BGP configuration begins with a familiar type of command: the router bgp command, where AS number is the BGP AS number used by that router (same as EIGRP, OSPF configuration).

The next command defines the IP address of the neighbor. Unlike OSPF or EIGRP, BGP cannot discover its neighbors automatically so we have to explicitly declare them. We also have to know and declare the neighbor’s BGP AS number as well. In this case R1 wants to establish BGP neighbor relationship with R2 (in BGP AS 2) so it choose an interface on R2 (Fa0/0: 11.0.0.2) and specify R2 is in BGP AS 2 via the command “neighbor 11.0.0.2 remote-as 2“. At the other end R2 will do the same thing for R1 to set up BGP neighbor relationship.

Please pay attention to the “State/PfxRcd” column of the output. It indicates the number of prefixes that have been received from a neighbor. If this value is a number (including “0”, which means BGP neighbor does not advertise any route) then the BGP neighbor relationship is good. If this value is a word (including “Idle”, “Connect”, “Active”, “OpenSent”, “OpenConfirm”) then the BGP neighbor relationship is not good.

In the outputs above we see the BGP neighbor relationship between R1 & R2 is good with zero Prefix Received (PfxRcd) because they have not advertised any routes yet.

How about the BGP routing table? We can check with the “show ip bgp” command but currently this table is empty! This is because although they formed BGP neighbor relationship but they have not exchanged any routes. Let’s try advertising the loopback 0 interface on R1 to R2:

R1(config-router)#network 1.1.1.0 mask 255.255.255.0

As you see, unlike other routing protocols like OSPF or EIGRP, we have to use subnet mask (255.255.255.0 in this case), not wildcard mask, to advertise the routes in the “network” command.

Note: With BGP, you must advertise the correct network and subnet mask in the “network” command ( in this case network 1.1.1.0/24). BGP is very strict in the routing advertisements. In other words, BGP only advertises the network which exists exactly in the routing table (in this case network 1.1.1.0/24 exists in the routing table as the loopback 0 interface). If you put the command “network 1.1.0.0 mask 255.255.0.0” or “network 1.0.0.0 mask 255.0.0.0” or “network 1.1.1.1 mask 255.255.255.255” then BGP will not advertise anything.

An asterisk (*) in the first column means that the route has a valid next hop. A greater-than sign (>) indicates the route has been selected as the best path to that network.

The “Metric” column here is not the usual metric like in OSPF or EIGRP. It is the Multi Exit Discriminator (MED) attribute of BGP. “Weight” is another BGP attribute. The default values of both MED and Weight are 0 (as you see at the outputs above).

The “Path” column shows the AS paths that prefix were sent to reach us. It would better to read the “Path” from right to left to understand which path this prefix travel to reach our router. Letter “i” is considered the starting point of the prefix and the next number is the originating AS where this prefix originated. Next numbers are the recorded paths it traveled. For example if a prefix had to travel from AS 1 -> 2 -> 3 -> 4 -> 5 (our AS) then we will see the path “4 3 2 1 i” on our router.

Note: A blank AS path (only letter “i” is shown) means that the route was originated in the local AS. In the R1 output above, network 1.1.1.0/24 is originated from R1 so we see the path only has one letter “i”.

One notice is on R1 the “Next Hop” is 0.0.0.0 which means this prefix is originated from the local router. On R2 the Next Hop is pointing toward the interface Fa0/0 of R1 (11.0.0.1) to which R2 will send traffic for the destination 1.1.1.0/24.

Now R1 advertised prefix 1.1.1.0/24 to R2 so we can re-check R2 with the “show ip bgp summary” command to see the “Prefix received” increased to 1:

This lab only mentioned about the most basic configuration of BGP and introduced two most important commands of BGP, which are “show ip bgp summary” and “show ip bgp”. In practical BGP is often much more complex with many attributes, routing policies, redistribution,… used.